Having taught in the UK and abroad, I've experienced teaching many different syllabi including SABIS, AQA, WJEC and Cambridge. I develop resources to help teachers model key concepts, provide practice for students and include answers to help students self-assess their work. Planning for a 27 lesson week can be stressful to say the least, so I hope you find my resources useful. Thank you for choosing my lesson/s, I hope they enrich your teaching practice and make your life easier.
Having taught in the UK and abroad, I've experienced teaching many different syllabi including SABIS, AQA, WJEC and Cambridge. I develop resources to help teachers model key concepts, provide practice for students and include answers to help students self-assess their work. Planning for a 27 lesson week can be stressful to say the least, so I hope you find my resources useful. Thank you for choosing my lesson/s, I hope they enrich your teaching practice and make your life easier.
This PowerPoint resource, Lesson 1 - Rates of Reaction, introduces students to the concept of reaction rates in chemistry. Designed for secondary-level science classes, this resource helps students define key terms such as reactants, products, and rate of reaction, while also exploring methods for measuring reaction rates using real-world examples.
The lesson includes engaging activities like graph plotting, calculating gradients, and analyzing reaction data to determine the mean and instantaneous rates of reaction. Students will develop critical analytical skills by interpreting graphs and calculating the gradient of tangents to measure reaction rates at specific points. Key methods for measuring reaction rates, including gas collection, mass loss, and time-to-precipitate formation, are thoroughly explained and accompanied by visual examples.
This resource also features interactive starter activities, extension challenges, and plenary tasks, ensuring comprehensive coverage of the topic while catering to varying student abilities. It is compatible with most devices, provided in a .pptx format, and can be used with software like Microsoft PowerPoint or Google Slides.
Last updated on 12/12/24, this resource includes updates to video links and questions for better user experience. Perfect for teachers aiming to simplify complex chemistry concepts, this resource is aligned with standard curricula and designed to enhance both classroom and independent learning.
This engaging PowerPoint lesson is designed to help students master the fundamental concepts of ionic compounds. Perfect for secondary school chemistry classes, it features clear explanations, practical examples, and interactive tasks that align with key curriculum standards.
What’s Covered:
Understanding Ionic Compounds:
Explore the formation of ionic compounds and deduce their chemical formulae using examples like magnesium oxide and potassium chloride.
Learn about polyatomic ions, including sulphate and nitrate.
Ionic Bonding and Lattices:
Examine the arrangement of ions in giant ionic lattices, focusing on sodium chloride’s 3D structure.
Compare various models (2D, 3D, ball-and-stick, dot-and-cross), discussing their advantages and limitations.
Learning Objectives:
Deduce the formula of common ionic compounds.
Represent ionic structures with models and diagrams.
Understand the limitations of different representational methods.
Interactive Activities:
Starter questions and practice problems for deducing chemical formulae.
Creative tasks like building ionic lattices with molymod kits.
Exam-style questions to consolidate understanding.
Why This Resource?
Aligned with secondary school chemistry curricula, ensuring comprehensive coverage.
Flexible usage: Ideal for guided lessons, homework, or revision.
Promotes active learning through hands-on activities and real-world applications.
File Type: PowerPoint (.pptx)
Updated: December 2024 – Includes additional examples, enhanced visuals, and video integration for interactive learning.
This resource is an excellent choice for teachers looking to make the topic of ionic compounds both accessible and engaging for their students!
This comprehensive resource bundle provides an in-depth exploration of chemical bonding and the structure and properties of compounds, ideal for secondary school students studying chemistry. Updated on 3rd December 2024, it covers eight detailed lessons, taking learners on a journey from the fundamentals of ionic and covalent bonding to advanced topics like fullerenes and graphene.
The bundle includes:
Ionic Bonding: Introducing the basics of ionic bonding, how ions form, and their role in compound stability.
Structure of Ionic Compounds: Exploring lattice structures, explaining why ionic compounds have high melting points and can conduct electricity when molten or dissolved.
Properties of Ionic Compounds: A detailed look at the physical and chemical properties of ionic substances.
Metallic Bonding: Understanding the ‘sea of electrons’ model and why metals are strong, malleable, and conductive.
Covalent Bonding: Breaking down how atoms share electrons to form molecules, including single, double, and triple bonds.
Structure and Properties of Simple Covalent Molecules: Examining how molecular structures affect boiling points, solubility, and conductivity.
Giant Covalent Structures: Focusing on diamond, graphite, and silicon dioxide, analyzing their properties and real-world applications.
Fullerenes and Graphene: Delving into cutting-edge materials science with these unique carbon allotropes, their remarkable properties, and potential uses.
How to use: Each lesson includes engaging starter activities, detailed explanations, and review questions to ensure student comprehension. This bundle is perfect for teachers seeking a structured, curriculum-aligned approach to teaching bonding and materials science. With clear progression, interactive activities, and real-world examples, it’s designed to inspire curiosity and deepen understanding of key chemistry concepts.
Lesson 1 - Ionic Bonding
Lesson 2 - Structure of Ionic Compounds
Lesson 3 - Properties of Ionic Compounds
Lesson 4 - Metallic Bonding
Lesson 5 - Covalent Bonding
Lesson 6 - Structure and Properties of Simple Covalent Molecules
Lesson 7 - Giant Covalent Structures
Lesson 8 - Fullerenes and Graphene
Elevate your chemistry teaching with this ionic bundle, a comprehensive package of PowerPoints designed to guide students through the fundamentals of ionic bonding and the unique properties of ionic compounds. This bundle is perfect for middle and high school science educators aiming to deliver engaging lessons with hands-on activities and assessments.
What’s Included:
Clear explanations on how ions form from atoms.
Interactive activities such as drawing ions and dot-and-cross diagrams for ionic compounds.
Examples featuring elements from Groups 1, 2, 6, and 7.
Step-by-step guidance on understanding electrostatic forces of attraction.
Real-world examples of ionic bonding (e.g., sodium chloride, magnesium oxide).
Explore the giant lattice structure of ionic compounds.
Understand why ionic compounds have high melting/boiling points.
Practical tasks to solidify knowledge.
Practical experiment to test electrical conductivity of ionic compounds in solid, molten, and aqueous states.
Safety guidelines for lab work and step-by-step experiment instructions.
Quiz on Bonding and Structure (Lessons 1–4) - 24-mark assessment covering ionic bonding, properties of ionic compounds, and practical applications. Includes marking scheme for quick and effective grading.
Why Choose This Bundle?
Interactive and Practical: Combines theory with hands-on experiments to engage students.
Comprehensive Coverage: Covers key concepts from ionic bonding to the properties of ionic compounds.
Assessment Ready: Quiz and activities ensure students grasp and retain concepts.
Empower your students to master ionic bonding and its properties with this all-in-one teaching bundle!
This engaging PowerPoint lesson introduces students to the role of catalysts in chemical reactions, focusing on their definition, function, and real-world applications. Perfectly suited for secondary school chemistry classes, the resource combines clear explanations with practical examples to build a thorough understanding of this essential concept.
What’s Included:
Learning Objectives:
Define a catalyst.
Describe how adding a catalyst affects the rate of reaction.
Use a reaction profile diagram to explain in detail the effect of adding a catalyst.
Starter Activity:
Questions to recap basic knowledge, such as what a catalyst is, whether it changes products, and how it affects activation energy.
Video Integration:
Link to a video explaining catalysts, with guided questions to enhance understanding of industrial processes like the Haber and Contact processes.
Key Concepts:
How catalysts provide an alternative reaction pathway with lower activation energy.
Examples of catalysts in real life: enzymes, catalytic converters, and industrial reactions.
Discusses the cost-efficiency and environmental benefits of using catalysts, such as reduced energy requirements.
Interactive Activities:
Examining reaction profile diagrams and labeling key features.
Why Choose This Resource?
Aligned with secondary school chemistry curricula, ensuring clarity and relevance.
Includes practical, exam-style questions to reinforce learning and assess understanding.
Perfect for guided lessons, student-led investigations, or revision sessions.
File Type: PowerPoint (.pptx)
Updated: December 2024 – Added real-world examples and enhanced visuals for better engagement.
Equip your students with the knowledge and skills to understand and apply the principles of catalysts in chemistry, making learning both fun and impactful!
Engage your students in the fundamentals of simple distillation with this comprehensive and interactive PowerPoint resource. Designed for middle and high school science lessons, this resource effectively introduces students to key concepts, including the apparatus used, the processes of evaporation and condensation, and the practical applications of separating mixtures.
The PowerPoint includes starter activities that assess prior knowledge on related topics like filtration and solubility, ensuring smooth progression into the main lesson. It features clear diagrams for labeling the apparatus, gap-fill activities to reinforce learning, and step-by-step explanations of the distillation process. Students are challenged to think critically with questions and scenarios, such as explaining the role of the condenser and the impact of cooling in the process.
This resource concludes with engaging plenary activities that utilize keywords to solidify understanding. It also incorporates an optional demonstration (if equipment is available), encouraging hands-on learning.
Last updated: December 2024
Included file: PowerPoint Presentation (.pptx).
Perfect for educators teaching distillation as part of mixtures and separation techniques in science curricula. Download now to enrich your classroom instruction!
This interactive PowerPoint lesson introduces students to the separation techniques of evaporation and crystallization, with a focus on separating salt from rock salt. Ideal for middle and high school science lessons, the resource combines theory and hands-on practice to develop key skills in scientific methods and apparatus use.
Students will:
Define evaporation (change from liquid to gas) and crystallization (formation of solid crystals from a solution).
Learn how to apply these methods to extract salt from rock salt.
Follow a clear, step-by-step practical demonstration, including using filtration to remove insoluble particles and evaporating water to crystallize salt.
Complete engaging activities such as fill-in-the-gap exercises, ordering steps, and review questions to solidify understanding.
The lesson includes diagrams for apparatus setup, explanations of key terms, and review tasks that explore why filtering works for certain mixtures but not others. It also integrates critical thinking with questions about particle sizes, solubility, and the practical applications of these separation techniques.
Last updated: December 2024
Included file: PowerPoint Presentation (.pptx).
Perfect for educators teaching separation techniques in chemistry, this resource supports hands-on learning and aligns with science curricula focusing on mixtures and their separation. Download now to make science engaging and accessible!
This interactive PowerPoint lesson introduces students to fractional distillation, focusing on its effectiveness in separating mixtures of miscible liquids like ethanol and water. Designed for middle and high school science curricula, the resource explains key concepts such as boiling points, the role of a fractionating column, and the differences between fractional and simple distillation.
The resource features a variety of engaging activities, including:
Starter questions on boiling and melting points and their relevance to distillation.
Fill-in-the-gap exercises to reinforce definitions of miscible and immiscible liquids and the fractional distillation process.
Step-by-step activities to help students sequence the process and label apparatus like the condenser and fractionating column.
Challenge questions and detailed explanations enhance understanding of why fractional distillation is more effective than simple distillation for separating liquids with similar boiling points.
The resource also includes diagrams, practice questions, and links to supplementary videos for visual demonstrations.
Last updated: December 2024
Included file: PowerPoint Presentation (.pptx).
This resource is ideal for teachers exploring separation techniques within science units and aims to provide a comprehensive and interactive learning experience. Download now to bring fractional distillation to life in your classroom!
This PowerPoint resource, introduces key concepts in chemistry, making it perfect for secondary-level science lessons. Students will learn the differences between pure substances, mixtures, and formulations, supported by engaging definitions, examples, and real-world applications.
The resource begins with an interactive starter activity to review key ideas, such as the role of boiling and melting points in determining substance purity. It then delves into the distinctions between elements, compounds, and mixtures, accompanied by examples like mineral water, air, and paracetamol. The lesson also defines formulations as mixtures designed for specific purposes and includes relatable examples, such as toothpaste and paint, with their components and functions detailed.
To enhance understanding, the resource incorporates data analysis tasks, allowing students to interpret melting and boiling point ranges to identify substances as pure or impure. Students are challenged to apply their learning through practice and extension questions, ensuring a thorough grasp of the topic.
Formatted as a .pptx file, the resource is compatible with PowerPoint and Google Slides, making it accessible across devices. Last updated in December 2024, it includes updated examples and exercises to align with curriculum requirements. Ideal for educators seeking a comprehensive, interactive, and student-friendly resource, this PowerPoint bridges theoretical knowledge and practical understanding, promoting critical thinking and engagement in chemistry topics.
Paper Chromatography with Required Practical is an engaging PowerPoint resource that guides students through the principles and applications of chromatography in secondary science. Designed for practical and theoretical learning, this lesson focuses on defining chromatography, explaining its use in separating mixtures, and identifying pure and impure substances.
The resource begins with a clear introduction to chromatography as a separation technique for soluble substances, such as inks, dyes, and food colorings. Step-by-step instructions are provided for conducting a paper chromatography experiment, including a detailed demonstration and an alternative practical setup for classrooms with limited resources. Students will explore the concepts of stationary phase and mobile phase while understanding the role of solubility and particle attraction in chromatographic separation.
Interactive activities include labeling diagrams, completing fill-in-the-gaps exercises, and analyzing chromatograms to identify the components of mixtures. Students will calculate Rf values to compare and identify substances, building analytical and mathematical skills. Practice questions and quizzes reinforce key ideas and ensure thorough understanding of how chromatography can distinguish pure substances from impure ones.
The PowerPoint format (.pptx) makes it easily accessible for teachers and students, compatible with Microsoft PowerPoint and Google Slides. With its structured layout, real-world examples, and opportunities for hands-on experimentation, this resource provides a dynamic and engaging way to teach chromatography. Last updated in December 2024, it includes updated visuals, practical notes, and example calculations to enhance learning outcomes.
Ideal for science teachers seeking a comprehensive, curriculum-aligned resource, this PowerPoint is perfect for classroom instruction, revision sessions, and independent study.
This is a comprehensive collection of interactive PowerPoint lessons designed for secondary-level science students. This engaging resource guides learners through essential chemistry topics, focusing on mixtures, pure substances, and various separation techniques, aligning with key science curriculum standards.
Lesson 1: Solutions introduces the concept of solutions, explaining solutes, solvents, and the particle model of dissolution. Students explore real-world examples and conduct hands-on activities to reinforce their understanding, including the conservation of mass during dissolution.
Lesson 2: Solubility explains solubility, identifying soluble and insoluble substances, and the impact of temperature on solubility. The lesson features graph-based analysis and a practical experiment to investigate temperature effects, helping students develop analytical skills.
Lesson 3: Filtration explores the separation of mixtures using filtration. Students learn about insoluble solids, filtrate, and residue through relatable examples like muddy water and coffee. The lesson includes a hands-on experiment and reflective questions to solidify key concepts.
Lesson 4: Separating Salt from Rock Salt focuses on evaporation and crystallization. Students follow a practical demonstration to extract salt, applying techniques like filtration and evaporation. Activities include step-by-step tasks, fill-in-the-gaps exercises, and review questions.
Lesson 5: Simple Distillation introduces evaporation and condensation processes for separating mixtures. Students learn to label apparatus diagrams, understand the role of condensers, and explore real-world applications through engaging questions and demonstrations.
Lesson 6: Fractional Distillation builds on simple distillation, explaining the separation of miscible liquids based on boiling points. Students sequence the process, label diagrams, and tackle challenge questions that highlight the role of the fractionating column.
Lesson 7: Pure Substances, Mixtures, and Formulations helps students distinguish between pure and impure substances, elements, and compounds. Real-world examples, such as mineral water and toothpaste, illustrate formulations, with activities that analyze boiling and melting points.
Lesson 8: Chromatography introduces chromatography as a separation technique for soluble substances like inks and dyes. Students conduct a practical experiment, calculate Rf values, and analyze chromatograms to identify pure substances and mixtures.
This bundle includes eight fully editable PowerPoint presentations (.pptx), each featuring starter activities, interactive tasks, practical experiments, and practice questions to assess understanding. Updated with modern visuals and examples as of December 2024, it supports hands-on learning, critical thinking, and real-world applications. Perfect for science educators, this resource ensures a thorough and engaging exploration of chemistry topics, making it ideal for classroom teaching, revision, or independent study.
